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Home Science News Chemistry

A Ted Talk in thermo detection

June 12, 2024
in Chemistry
Reading Time: 2 mins read
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The electronics industry faces a new challenge. 

The electronics industry faces a new challenge. 

While transistors in computer chips are shrinking, the heat they produce is only increasing. Overheating can cause reduced circuit performance, increased leakage power or even the total breakdown of transistors. 

A team of researchers from the University of Pittsburgh and Carnegie Mellon University propose locally embedded thermoelectric devices (TEDs) that can perform active cooling inside circuits.  

“Circuits like clock generators and arithmetic and logic units (ALU) create high-frequency heat fluxes with their peak hot spots occurring on the microprofessor,” explained Feng Xiong, associate professor of electrical and computer engineering at Pitt’s Swanson School of Engineering. “Cooling systems at the chip size are over designed and a more targeted strategy is necessary to dissipate heat in these hot spots.” 

TED Finds the Hot Spot 

The only way to cool an object down is to remove the heat – or energy – from it. These circuits are generating heat at a really high frequency. With TED, this high frequency temperature variation can be totally eliminated. 

TEDs remove heat from hot spots inside circuits to colder regions throughout the device using thermoelectric effects at the same frequency. Researchers proved their theory using experimental data from frequency domain thermal reflectance (FDTR) measurements made directly on an actively cooled thermoelectric device where the pump laser replicates the transient hot spot. The team used materials with high thermal conductivity, which theoretically improves cooling efficiency by a factor of 100 compared to conventional thermoelectric materials. 

“We demonstrated a practical method to actively cancel the transient temperature variations on circuit elements with TEDs,” Feng said. “This result opens a new path to optimize the design of cooling systems for transient localized hot spots in integrated circuits.” 

Other researchers on the project include: 

  • Yihan Liu, PhD candidate at Pitt 
  • Hao-Yen Cheng, PhD candidate at Carnegie Mellon University
  • Jonathan A. Malen, Raymond J. Lane Distinguished Professor of Mechanical Engineering with a courtesy appointment in materials science and engineering at Carnegie Mellon University 

The paper, “Thermoelectric active cooling for transient hot spots in microprocessors,” (DOI: 10.1038/s41467-024-48583-9) was recently published in the journal Nature Communications.



Journal

Nature Communications

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